AbstractThe spatial distribution of stomatal cells in the plant epidermis is generated by stereotyped cell divisions. Recent evidence suggests that a subtilisin-like protease is involved in controlling these cell-division patterns; it may play a role in processing a signal peptide or receptor involved in cell-to-cell communication
AbstractThe formation of the root epidermis inArabidopsis thalianaprovides a simple model to study m...
Stomata are microscopic pores on the plant epidermis that serve as a major passage for the gas and w...
In plants, the development of the epidermis, and the specialized stomatal lineage within it, exempli...
AbstractThe spatial distribution of stomatal cells in the plant epidermis is generated by stereotype...
How do plants generate the optimal spacing of stomatal pores on their surfaces to prevent excessive ...
<div><p>The spatial distribution of plant stomata is a model system to study epidermal cell pattern ...
The spatial distribution of plant stomata is a model system to study epidermal cell pattern formatio...
AbstractCell lineage has been used to explain the stomatal distribution in several plant species. We...
In plants, specialized epidermal cells are arranged in semiordered patterns. In grasses such as maiz...
Plant epidermal cells are morphologically diverse, differing in size, shape, and function. Their uni...
The epidermis of roots is composed of hair and non-hair cells. Patterning of this epidermis results ...
AbstractStomata complexes are epidermal specialized structures typical of the upper aerial part of p...
Stomata are two-celled valves that control epidermal pores whose opening and spacing optimizes shoot...
How growth and proliferation are precisely controlled in organs during development and how the regul...
The patterning of stomata plays a vital role in plant development and has emerged as a paradigm for ...
AbstractThe formation of the root epidermis inArabidopsis thalianaprovides a simple model to study m...
Stomata are microscopic pores on the plant epidermis that serve as a major passage for the gas and w...
In plants, the development of the epidermis, and the specialized stomatal lineage within it, exempli...
AbstractThe spatial distribution of stomatal cells in the plant epidermis is generated by stereotype...
How do plants generate the optimal spacing of stomatal pores on their surfaces to prevent excessive ...
<div><p>The spatial distribution of plant stomata is a model system to study epidermal cell pattern ...
The spatial distribution of plant stomata is a model system to study epidermal cell pattern formatio...
AbstractCell lineage has been used to explain the stomatal distribution in several plant species. We...
In plants, specialized epidermal cells are arranged in semiordered patterns. In grasses such as maiz...
Plant epidermal cells are morphologically diverse, differing in size, shape, and function. Their uni...
The epidermis of roots is composed of hair and non-hair cells. Patterning of this epidermis results ...
AbstractStomata complexes are epidermal specialized structures typical of the upper aerial part of p...
Stomata are two-celled valves that control epidermal pores whose opening and spacing optimizes shoot...
How growth and proliferation are precisely controlled in organs during development and how the regul...
The patterning of stomata plays a vital role in plant development and has emerged as a paradigm for ...
AbstractThe formation of the root epidermis inArabidopsis thalianaprovides a simple model to study m...
Stomata are microscopic pores on the plant epidermis that serve as a major passage for the gas and w...
In plants, the development of the epidermis, and the specialized stomatal lineage within it, exempli...
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